Damage growth modeling using the Thick Level Set (TLS) approach: Efficient discretization for quasi-static loadings

The Thick Level Set (TLS) model is a damage model containing a non-local treatment that prevents from spurious localization issues. It also offers an automatic transition from damage to fracture. The TLS approach to model damage growth was first presented in Möes et al. [24] with a first numerical i...

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Published inComputer methods in applied mechanics and engineering Vol. 233-236; pp. 11 - 27
Main Authors Bernard, P.E., Moës, N., Chevaugeon, N.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 01.08.2012
Elsevier
Subjects
Algorithms
Computation
Damage
Damage modeling
Decoupling
Differential geometry
Discretization
Engineering Sciences
Enrichment
Exact sciences and technology
Extended finite element method
Fracture mechanics
Fracture mechanics (crack, fatigue, damage...)
Fundamental areas of phenomenology (including applications)
Geometry
Localization
Materials
Mathematical models
Mathematics
Mechanics
Physics
Sciences and techniques of general use
Solid mechanics
Structural and continuum mechanics
Thick Level Set
Damage modeling
Thick Level Set
Fracture mechanics
Localization
Extended finite element method
Enrichment
Rupture
Contour line
Quasi static theory
Modeling
Static load
Decoupling
Discretization
Variational calculus
Griffith crack
Non local theory
Crack initiation
Damaging
Step function
eXtended Finite Element Method
Extended finite element method
Online AccessGet full text
ISSN0045-7825
1879-2138
1879-2138
DOI10.1016/j.cma.2012.02.020

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Abstract The Thick Level Set (TLS) model is a damage model containing a non-local treatment that prevents from spurious localization issues. It also offers an automatic transition from damage to fracture. The TLS approach to model damage growth was first presented in Möes et al. [24] with a first numerical implementation for a time-dependent damage evolution law. In this paper, we propose some improvements in terms of discretization and explicit damage growth algorithms to obtain a robust, efficient and easy-to-implement model. These improvements include a simple and efficient variational formulation for computing the non-local quantities as well as the introduction of a so-called ramped Heaviside enrichment function to properly take into account the transition to cracks in fully damaged zones. We consider here a simple explicit formulation for quasi-static loadings, decoupling the elastic computation and the damage growth. The method is validated through standard benchmarks and compared to the Griffith’s fracture theory. The convergence of energy and displacement errors is observed. More complex computations including damage initiations are eventually performed.
AbstractList The Thick Level Set (TLS) model is a damage model containing a non-local treatment that prevents from spurious localization issues. It also offers an automatic transition from damage to fracture. The TLS approach to model damage growth was first presented in MAPGes et al. [24] with a first numerical implementation for a time-dependent damage evolution law. In this paper, we propose some improvements in terms of discretization and explicit damage growth algorithms to obtain a robust, efficient and easy-to-implement model. These improvements include a simple and efficient variational formulation for computing the non-local quantities as well as the introduction of a so-called ramped Heaviside enrichment function to properly take into account the transition to cracks in fully damaged zones. We consider here a simple explicit formulation for quasi-static loadings, decoupling the elastic computation and the damage growth. The method is validated through standard benchmarks and compared to the Griffithas fracture theory. The convergence of energy and displacement errors is observed. More complex computations including damage initiations are eventually performed.
The Thick Level Set (TLS) model is a damage model containing a non-local treatment that prevents from spurious localization issues. It also offers an automatic transition from damage to fracture. The TLS approach to model damage growth was first presented in Mies et al. [24] with a first numerical implementation for a time-dependent damage evolution law. In this paper, we propose some improvements in terms of discretization and explicit damage growth algorithms to obtain a robust, efficient and easy-to-implement model. These improvements include a simple and efficient variational formulation for computing the non-local quantities as well as the introduction of a so-called ramped Heaviside enrichment function to properly take into account the transition to cracks in fully damaged zones. We consider here a simple explicit formulation for quasi-static loadings, decoupling the elastic computation and the damage growth. The method is validated through standard benchmarks and compared to the Griffith's fracture theory. The convergence of energy and displacement errors is observed. More complex computations including damage initiations are eventually performed.
The Thick Level Set (TLS) model is a damage model containing a non-local treatment that prevents from spurious localization issues. It also offers an automatic transition from damage to fracture. The TLS approach to model damage growth was first presented in Möes et al. [24] with a first numerical implementation for a time-dependent damage evolution law. In this paper, we propose some improvements in terms of discretization and explicit damage growth algorithms to obtain a robust, efficient and easy-to-implement model. These improvements include a simple and efficient variational formulation for computing the non-local quantities as well as the introduction of a so-called ramped Heaviside enrichment function to properly take into account the transition to cracks in fully damaged zones. We consider here a simple explicit formulation for quasi-static loadings, decoupling the elastic computation and the damage growth. The method is validated through standard benchmarks and compared to the Griffith’s fracture theory. The convergence of energy and displacement errors is observed. More complex computations including damage initiations are eventually performed.
Author Moës, N.
Chevaugeon, N.
Bernard, P.E.
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Keywords Damage modeling
Thick Level Set
Fracture mechanics
Localization
Extended finite element method
Enrichment
Rupture
Contour line
Quasi static theory
Modeling
Static load
Decoupling
Discretization
Variational calculus
Griffith crack
Non local theory
Crack initiation
Damaging
Step function
eXtended Finite Element Method
Extended finite element method
Language English
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SSID ssj0000812
Score 2.3861346
Snippet The Thick Level Set (TLS) model is a damage model containing a non-local treatment that prevents from spurious localization issues. It also offers an automatic...
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StartPage 11
SubjectTerms Algorithms
Computation
Damage
Damage modeling
Decoupling
Differential geometry
Discretization
Engineering Sciences
Enrichment
Exact sciences and technology
Extended finite element method
Fracture mechanics
Fracture mechanics (crack, fatigue, damage...)
Fundamental areas of phenomenology (including applications)
Geometry
Localization
Materials
Mathematical models
Mathematics
Mechanics
Physics
Sciences and techniques of general use
Solid mechanics
Structural and continuum mechanics
Thick Level Set
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Title Damage growth modeling using the Thick Level Set (TLS) approach: Efficient discretization for quasi-static loadings
URI https://dx.doi.org/10.1016/j.cma.2012.02.020
https://www.proquest.com/docview/1038272721
https://hal.science/hal-01006715
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